Watch

Watching this resources will notify you when proposed changes or new versions are created so you can keep track of improvements that have been made.

Favorite

Favoriting this resource allows you to save it in the “My Resources” tab of your account. There, you can easily access this resource later when you’re ready to customize it or assign it to your students.

Electric Charge in the Atom

Share this content

Atoms contain negatively charged electrons and positively charged protons; the number of each determines the atom's net charge.

Learning Objectives

Provide value of an elementary charge

Identify factors that determine the atom's net charge

Key Points

A proton is a positively charged particle located in the nucleus of an atom.
An electron has $\frac{1}{1836}$ times the mass of a proton, but an equal and opposite negative charge.

An elementary charge -- that of a proton or electron -- is approximately equal to 1.6×10-19Coulombs.

Unlike protons, electrons can move from atom to atom.
If an atom has an equal number of protons and electrons, its net charge is 0.
If it gains an extra electron, it becomes negatively charged and is known as an anion.
If it loses an electron, it becomes positively charged and is known as a cation.

Term

the massive, positively charged central part of an atom, made up of protons and neutrons

Give us feedback on this content:

Full Text

Overview of Atomic Electrical Charges

Atoms, the fundamental building blocks of all molecules, consist of three types of particles: protons, neutrons, and electrons.
Of these three subatomic particle types, two (protons and electrons) carry a net electric charge, while neutrons are neutral and have no net charge.

Both protons and electrons have charge that is quantized.
That is, the magnitude of their respective charges, which are equal each other, is 1.
This standard value is equal to approximately 1.6×10-19Coulombs.

Protons

Protons are found in the center of the atom; they, with neutrons, make up the nucleus.
Protons have a charge of +1 and a mass of 1 atomic mass unit, which is approximately equal to 1.66×10-24 grams.
The number of protons in an atom defines the identity of the element (an atom with 1 proton is hydrogen, for example, and an atom with two protons is helium).
As such, protons are relatively stable; their number rarely changes, only in the instance of radioactive decay.

Electrons

Electrons are found in the periphery of the atom and have a charge of -1.
They are much smaller than protons; their mass is $\frac{1}{1836}$ amu.
Typically in modeling atoms, protons and neutrons are regarded as stationary, while electrons move about in the space outside the nucleus like a cloud.
The negatively charged electronic cloud indicates the regions of the space where electrons are likely to be found.
The electrons cloud patterns are extremely complex and is of no importance to the discussion of electric charge in the atom.
More important is the fact that electrons are labile; that is, they can be transferred from one atom to the next.
It is through electronic transfer that atoms become charged.

Ions

In the ground state, an atom will have an equal number of protons and electrons, and thus will have a net charge of 0.
However, because electrons can be transferred from one atom to another, it is possible for atoms to become charged.
Atoms in such a state are known as ions.

If a neutral atom gains an electron, it becomes negative.
This kind of ion is called an anion.

If a neutral atom loses an electron, it becomes positive.
This kind of ion is called a cation.

The steady flow of electrons is called current.
Current is what flows through electrical wires and powers electronics items, from light bulbs to televisions.